Drink vending machine



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INVENTOR f1 ,d/72a? ra BY ATTORNEY Feb, 4, 1936., T. BRADY DRINK VENDING MACHINE Filed Feb'. 27, 1935 Filed Feb. 27, 1955 4 Sheets-Sheet 2 INVENTQR 17h/Ww' /'f/J 7 BY ATTO R N EY Feb, 4&9 M3., T. BRADY DRINK VENDING MACHINE 4 Sheets-Sheet 3 Filed Feb. 27, 1935 NVENTOR Zaf/Zdf /UJ,

' ATTORNEY T. BRADY DRINK VENDING MACHINE 4 sheets-sheet 4 Filed Feb. 27, 1933 INVENTOR Mag Hmm' graaf@ Feb. 4, 1936.

PatentedI Feb. 4, 1936 UNITED sTATEs PATENT OFFICE DRINKVENDING MACHINE Thomas Brady, West Caldwell, N. J. Application February 27, 1933, Serial No. 658,693

7 claims. (ci. 22a- 21) This invention relates, generally. to vending `machines; and the invention has reference, more particularly, to a novel food and drink vending machine. v

Vending machines heretofore used for vending foods and drinks have seldom proved successful in use because suchmachines are usually quite complicated in structure and hence expensive to manufacture, and, owing to their complex nature, these machines become easily deranged, requiring frequent and expensive repairs. Furthermore, many of the vending machines heretofore designed are not foolproof and have been easily put out of operation by unauthorized tampering therewith and improper operation thereof; and,

furthermore, many 4of these machines are un-V sanitary and hence undesirable for this reason. Many of the drink vending machines heretofore used fail to deliver the correetquantity of drink, said machines at times delivering too little liquid and at other times delivering too much of the dispensed drink.

The principal object of the present invention is to provide a novel food and drink vending machine which is of simple, rugged and reliable construction, the said machine being adapted to be produced at a very reasonable cost and maintained in 'use at little expense, the said machine being substantially foolproof and easily operated by the use of coin chutes to effect the dispensing of food and drink.

Another object of the present invention lies in the provision of a novel food anddrink vending machine of the above character having one or more coin controlled and intermittently movable food containers therewithin, each of which food containers is divided into a plurality of consecutive shelves or pockets for receiving individual portions of the food to be dispensed through a door provided in the casing of the machine, the intermittent movement of a food container serving to position sucessive pockets thereof opposite the door of the casing, whereby the purchaser is enabled to remove the purchased food.`

Still another object of the present invention is to provide a novel food and drink vending machine of the above character having food containers provided with easily'rcadable signs, Empty, the Empty sign of a container being displayed thereby when all of the food of the container has been dispensed, the coin chute controlled means for operating said food -container being. so constructed as to return the purchasers coin to him should he attempt to secure food from the food container after the same is empty.

A fourth object of the present invention lies in the provision of anovel food and drink vending machine of the above character having coin controlled means for dispensing drinks at any desired temperature, either hot or cold, the said the food container during ating means.

dispensing moans including a measuring valve so constructed and arranged as to accurately measure and dispense the desired quantity of drink without waste or drip.

A fifth object of the present invention is to 5 provide a novel food and drink vending machine of the above character which is so constructed and arranged as to enable the easy and quick replenishment of food and drink therein, the said machine having thermostatically controlled 10 means for maintaining the dispensed drink at a desired temperature.

Other objects of `this invention, not at this time more particularly enumerated, will be clearly understood from the following detailed descrip- 15 tion of the same.

The invention is clearly illustrated in the accompanying drawings, in-which:

Fig. 1 is a perspective view of the novel food and drink vending machine of the present in- 20 vention and illustrates the hands of users about to receive food and drink from the machine.

Fig. 2 is an enlarged sectional view, with parts broken away, taken substantially along line 2-2 of Fig. 1 looking in the direction of the arrows.

Fig. 3 is a fragmentary sectional view taken substantially along line 3--3 of Fig. 2, looking in the direction of the arrows.

Fig. 4 is a sectional view taken substantially along line li-ii of Fig. 2 looking in the direction 30 of the arrows.

Fig. 5 is an enlarged sectional view taken substantially along line 5-5 of Fig. 2 looking in the direction of the arrows with the switch in closed position.

Fig. 6 is an enlarged fragmentary sectional view taken substantially along line 6-6 of Fig. 4 looking in the direction of the arrow.

Fig.V 'Z is a sectional view taken substantially along line l-l of Fig.. 6, looking in the direction 40 of the arrows.

Fig. 8 is a view similar to Fig. 7 but illustrates its downward motion.

Fig. 9 is a fragmentary` view illustrating the operation of the mechanism for returning a coin 45 when the food container is empty.'

Fig. 10 is a fragmentary view in side elevation with parts broken away of the measuring valve and associated apparatus.

Fig. 11 is a sectional view taken substantially 5o along line ii-ll of Fig. 10, looking in the direction of the arrows.

Fig. 12 is a wiring diagram volved.

Fig. 13 is a fragmentary sectional view illus- 55 trating theupward motion of a food container after the same has been filled.

Fig. 14 is a view with parts broken away of the measuring valve provided with a different operof the circuits in- Finn 15 is a slightly modified form of wiring dialram; and

Fig. 18 is a fragmentary view in elevation showing stacked cups having cubes or capsules of food or drink concentrates therein,which cups ma'y be usedrin lieu of empty cups.

Similar characters of reference are employed in all of theabove described views to indicate corresponding parts.

Referring now to said drawings, the reference numeral I designates the novel food and drink vending machine of this invention as a whole, the said machine comprising a substantially rectangular casing closed at its top and bottom and having a front wall 2, a rear wall .3 and side walls consisting of removable upper and lower panels 4 and 5, respectively. The upper portion of the front wall 2 is ilxed to the frame 4 ot the machine and is formed with a central rectangular opening l providing access to a box-like recess l within the casing, the boundaries of which recess are defined by a rectangular casing member 8 open at its front and disposed so as to register with the opening 1 in the front wail of the machine.

A pair of cup dispensers I 0 and I Il' are positioned within the recess 8 and are mounted upon the rear wall II of the casing member 9 adjacent the side walls of this casing member. Coin chutes I2 are positioned adjacent the cup dispensers I0 and I 0 for use in discharging cups from these dispensers. Any standard type of coin chute I2 may be employed and as the structure of these coin chutes does not form a part of this invention, it would appear that these coin chutes would not require a detailed description. 'I'he slides I3 of the coin chutes I2 (see especially Fig. 2) are adapted to engage and actuate the oil'set inner end portions I4 and I4 of the cup dispenser operating bars I5 and I5. The operating vbars I5 and I5 extend forwardly and through apertures in the rear wall II oi' casing member 8 and into the housings of the cup dispensers I0 and I0', respectively, for operating these cup dispensers.

Coil tension springs I 5 and I5' are connected respectively to the onset inner end portions I4 and I4' of the operating bars and are also connected to a stationary frame II and serve to normally hold the operating bars I5 and I5' in their forward inoperative positions. When a coin isl inserted into one of the coin chutes I2 and. the knob I8 the slide I3 of the coin chute will engage one oi' the oil'set inner end portions I4 or I4', depending upon which coin chute is used, thereby causing rearward operative movement of one of the operating bars I5 and I5 and effecting the dispensing of a cup from the corresponding cup dispenser. The coin chutes I2 are illustrated as having tension springs 20 attached to their slides II, which tension springs serve to return the operating knobs I8 of the coin chutes to their forward outermost positions after an operation of these coin chutes. Although two cup dispensers I-II and I0 are shown in the drawings, it will be apparent that onlyone of these cup dispensers may be used, ii' desired, or more than two of these cup dispensers may be used.

A substantially semi-cylindrical recess 2I having a rear wall 2| is provided in the lower central portion of the rear wall II of casing member 9 for the purpose of receiving cups 22 while these cups are being filled with the dis- Densed drink. A drain 2l is provided at the botof substantially disc shape thereof is pushed rearwardly,

tom of the recess 2i for supporting the cup while the cup is being filled andI for conveying any spilt liquid to a discharge pipe 24 which is adapted to discharge such liquid into a suitable pail or other container 25 positioned in the bottom of the machine casing.

The apparatus for supplying the drink to the cups 22 comprises a main supply vessel or contalner 28 preferably having a removable top 2l for enabling the ready filling of the vessel with the desired drink. The vessel 24 is illustrated as mounted upon a suitable supporting frame structure 28 which serves to position the vessel 28 above a cup 22 receiving the drink. Discharge piping 29 is connected to the bottom of vessel 26 for conveying the liquid within this vessel to a smaller auxiliary heating vessel or container 80. The piping 28 is illustrated-as provided with a clean-out 2| and valves 32 for controlling the flow of fluid therethrough. ing 28 is of relatively small diameter so as to prevent a reverse circulationof heated fluid from auxiliary tank 30 back into the larger tank 24.

The drink, when put into the main tank or container 28, is usually cold and is heated to any desired temperature after the same enters auxiliary tank 30. In order to supply the requisite amount of heat to the auxiliary vessel or tank 20 for heating the liquid drink therein to the desired temperature, an electric heater unit Il is positioned beneath the bottom of tank 30. The electric heater 24 is illustrated as mounted upon a plate 84 carried by the frame member II.

An adjustable thermostatic switch 25 of any well known construction, is mounted upon the upper portion of vessel 30 for regulating the supply of electric energy to the electric 'heater Il. The thermostatic switch is adapted to control the electric heater 32 so that the liquid within vessel 30 will be maintained at any desired temperature suitable for drinking, the said temperature being determined by the setting-of the thermostatic switch. A vent pipe I'I of relatively large diameter is secured to the top ofv auxiliary vessel 30 and extends upwardly therefrom for a suitable distance so that the open top of this vent pipe will be atleast as high as the top of the container 25, so that regardless of the height of the liquid level 38 within the main supply vessel 26, this liquid level will always remain within the vent pipe 3l and will not overflow this vent pipe. Vent pipe 31 being open at its top enables any vapors or gases that may be formed within the auxiliary vessel 30 tc readily escape'. The lower portion of the auxiliary heating vessel 34 is connected by a pipe 38 to a liquid measuring valve 4I.

Liquid measuring valve 4II, as especially show-n in Figs. 10 and l1, comprises a tubular casing 4I having an aperture 42 in the wall thereof communicating with the pipe 39. The aperture 42 is in the form of a transverse slot, the same being relatively short in height, but relatively wide as measured in a transverse direction, as especially shown in Fig. 11. Slot or aperture 42 is adapted to communicate with a similar slot or aperture 43 provided in a hollow cylindrical valve body 44, whereby liquid Afrom pipe 39 will ilow into the valve body 44. The valve body 44 has a sliding ilt within the tubular casing 4I and is adapted to be reciprocated within this casing. The lower end of casing 4I has a discharge fitting 45 threaded thereon, which discharge iitting has a central vertical discharge opening 44.

A conical valve seat 4'I is provided within the Preferably. the pipcameo discharge tting'45 adjoining the top of the discharge opening 46, which valve seat is adapted to be engaged by a conical valve portion 4I provided at the lower end oi' the valve body 44. Conical valve portion 48 is illustrated as formed on a plugr member 49 that is threaded into the lower portion of the tubular valve .body 44'and constitutes the bottom of this valve body. Plug member 49 is provided with a number of apertures 50 for permitting liquid within the valve body 44 to flow out of this body and down through the discharge opening 46 when the conical valve portion 4B is lifted from its seat 41, as especially shown in Fig, 10.

' A plug 5i is threaded intothe upper portion of' the valve body 44 and constitutes the top of this valve body. A small air vent hole 52 extends vertically through the plug and provides communication between the interior of the valve body Cil 44 and the space within casing 4I above this valve body, thereby permitting air above the valve body to readily escape into the valve body when the valve body moves upwardly in use and enabling a reverse flow of air when the valve body moves downwardly. The casing 4I has a cap 53 threaded thereon, which cap is provided with a stuffing box 54 and gland 55, through which extends a vertical cylindrical valve rod 56. The lower end portion of valve rod-56 is threaded through the plug 5I and the upper end portion of this valve rod is connected by an angle bracket 51 and a pivotal pin 58 to a vertical link 59.

Link 59 extends upwardly within the interior of the'machine casing and has its upper end pivotally connected to the armature 69 of a solenoid 5i. When the solenoid 6| is energized, its armature E0 will move upwardly, raising link 59, angle bracket 51 and valve rod 56, thereby ef.- fecting the raising of valve body 44 from its seat 41, permitting liquid within this Valve body 44 to be discharged through discharge opening 46, as illustrated in Fig'. 10. The link 59 preferably has a vertical slot for receiving the pin 58, which slot permits armature 60 and link 59 to move upwardly a short distance in use before raising the angle bracket 51, thereby lessening the initial load on the armature 69.

A cross arm 52 is fixed upon valve rod 56 adjacent the angle bracket 51. Nuts 69 threaded upon the valve rod 55 and engaging the angle bracket 51 and the cross arm 62 serv to secure these members together and in fixe position upon the valve rod. A pair of tension springs 64 have their upper ends secured to the opposite ends to the cross arm 62 andhave their lower ends secured to the end portions of a bracket 65 that is fixed tothe lower part of valve casing 4i. Tension springs 64 tend to urge cross arm 62 downwardly and hence urge valve rod 55 andvalve body 44 downwardly so that its valve portion 48 will normally engage the seat 4'1, thereby effectively closing this valve. When the solenoid 6I is energized, however, this solenoid acting through link 59, serves to raise the valve-body 44 against the tension of springs 64 permitting the escape of the measured quantity of liquid within this valve body.' The initial upward movement of the valve body causes slot 43 to move upwardly and out of alignment with slot 42, thereby shutting off the supply of drink to the measuring valve body 44, so that only the liquid contained within this valve body passes into the cup 22. After the deenergization of the solenoid 6|', springs 64 serve to again close the conical valve portion48 upon its seat 41.

The valve rod 58 is provided with a central vertical vent opening or passage 66, which y'extends to the top of this valve rod. A vent pipe 61 of relatively small diameter has its lower end threaded into the upper portion of the passage 66 and its upper end portion extends over and into the relatively large vent pipe 31, as especially shown in Fig. 4. Vent pipe 61 serves as a continuation ol' passage 66 and permits the egress of air from the valve body 44 while this valve body is filling with liquid and also permits the ingress of air into this valve body while the valve body is being emptied. Should any liquid tend to travel upwardly through' passage 66 and i vent pipe 61, the same will be discharged into the large vent pipe 31.

When the conical valve portion 48 engages itsA seat 41 under the action of tension springs 64,

the slots 42 and 44 are aligned, thereby permitting' hot drink to readily flow from auxiliary vessel 30, through pipe 39 and into the interior of valve body 44, thereby lling this valve body, the internal volume of this valve body being predetermined so as to deliver a desired quantity of drink -at one time. When the valve body 44 is raised in use, the narrow port 43 immediately moves out of registration with port 42, thereby shutting cil communication between the interior of thisvvalve body and the supply pipe 39, while at the same time valve portion 49 in lifting ofi of its seat 41 enables the measured quantity of liquid within the interior of valve body 44 to drain down through passage 46 and into the cup 22. A sanitary non-metallic nipple 69 is shown threaded upon the lower end of discharge fitting 45.

The electric heater unit 33 is illustrated as having an extension 1i engaging the valve casing 4| for retaining the liquid within the valve body 44at the vdesired temperature for drinking. As especially shown in the wiring diagram of Fig. l2, theheater unit 33 has one terminal thereof connected by a lead 12 to a terminal post 13 provided on a fuse block 14 that is mounted at the top of the machine casing. Terminal post 13 of the fuse block is connected through the fuse block to a lead of a current supply cable 16.

K The other terminal of electric heater unit 33 is connected by a lead 11 to one terminal of the thermostatic switch 35, the other terminal of which switch is connected by a lead 19 'to a terminal post 19 of the fuse block 14. Terminal post 19 is connected through a fuse 89 to the other lead 8i of the supply cable 16.

A coin chute 32, mounted upon the rear wail il of the casing 9, is employed for controlling the operation of the solenoid 6i. The slide 83 of the coin chute 82 has a cam plate 94 mounted thereo-n, which cam plate is adapted to engage the head of a screw 85, which screw is attached to a switch lever 86 having the shape o f a bell crank'. Lever 86 is pivotally mounted upon a pin 91 carried by a bracket B8 that is attached to an angle bar89 used in supporting the container 26. Lever 86 has a mercury contact switch 90 secured thereto, the said switch being actuated to on and oil positions by angular movement of lever 86 about its supporting pin 81, the angular movement being imparted to the lever 86 by the cam plate 84. The weight of switch lever 86 normally positions the same in the position shown in Fig. 4, in which position this lever engages a suitable stop 99 illustrated as provided in bracket 88.

Thus, in use, when the proper coin is inserted into the slide 99 of coin chute 99 and the operating knob 9| of this coin chute pushed inwardly. the cam plate 94 is carried rearwardly and engages the head of screw 99, thereby raising this screw and turning the switch lever 99 in a. clockwise direction, as viewed in Fig. 4, thereby moving the mercury contact switch from its open position, shown in Fig. 4, to its closed position, shown in Fig. 5. One terminal of mercury contact switch 99 is connected by a lead 92 to a terminal post 99 provided on the switch block 14. Terminal post 99 is connected. through a. fuse 94 tothe lead 9| of cable 16. The other terminal of the mercury contact switch 99 is connected by a lead 96 to one terminal of the solenoid 6I, the other terminal of which solenoid is connected by a lead 96 to a terminal post 91 of the fuse block 14. Hence, with the mercury switch 99 closed, a circuit is established from cable lead 8|, through fuse 94, to the lead 92, mercury contact switch 99, lead 95, solenoid 9|, and lead 99 to the-other lead of cable 16.

The energization of solenoid 6| effects the raising of the armature 69 resulting in the dispensing of a drink into the cup 22 positioned below the nipple 68 oi the measuring valve. After the predetermined quantity of hot liquid within the measuring valve has run into the cup, thereby filling the latter, the purchaser releases his pressure upon the knob 9|, whereupon a spring 99 connected to the slide 99 serves to move this slide forwardly g into its initial inoperative position. The forward movement of the slide 99 causes cam plate 94 to also move forwardly and out of contact with the screw 99, whereupon the switch lever 99 turns under the action of gravity in a counterclockwise direction, as viewed in Fig. 4,

thereby opening mercury contact switch 99 and deenergizing solenoid 6| so that armature 99 in V falling permits tension springs 94 to close the measuring valve and permit the valve body 44 thereof to again become filled with hot liquid from auxiliary reservoir 99, preparatory to another operatlon of the coin chute 92. As fast as liquid is drawn from the auxiliary reservoir 99, additional liquid is supplied thereto from main reservoir 29 by way of piping 29.

To replenish the liquid in the mainreservoir 29 it is merely necessary to remove one of the removable side panels 4 and refill the reservoir 29. The side panels 4 are provided with spaced lugs |9| near their lower edges, which lugs have inwardly oiset lower end portions for projecting into apertures provided in the machine frame, thereby retaining the lower part of these panels 4 in place. Locks |92 are provided on the panels 4 near the tops of these panels and have pivotal latch bolts |99 for engaging the machine frame to thereby retain the upper part of panels 4 in place.

When it is desired to remove a panel 4, the proper key is inserted into the lock |92 and used to turn the pivotal latch bolt |99 downwardly, whereupon the panel may be grasped as by knobs |94 provided thereon and raised slightly thereby disengaging lugs |3| from the machine frame and permitting the panel to be bodily removed from the machine. By removing panels 4, access is also had to the open upper ends |95 of the cup dispensers, thereby enabling additional cups to be inserted into these dispensers. Also, access is thus provided to the coin boxes |99 and |91, used for collecting coins discharged from coin chutes |2 and 92. 'I'he removable side panels 5 are also provided with spaced lugs |9| at their lower edge portions for engasins the machine frame. 'nisse panels also have locks |92 provided with pivotal latch bolts |99 for securing the panels in place. By removing either or both of these lower side panels, access is had to the lower interior portion 'of the machine casing.

The food vending portion ot the machine consists of one or more vertically extending containers |99, which containers are illustrated as of rectangular or prismatic shape and of substantially square cross section, although it is to be understood that these containers may have any desired shape to accommodate the particular food dispensed. 'I'he containers |99 are illustrated as having a substantially square cross section 'in order to readily receive and dispense sandwiches. Two of the food containers |99 are shown in the machine illustrated in the drawings, there being one of these containers at each side of the drink dispensing portion of the machine, although it is to be understood that a greater or lesser number of these food containers may be used. For example, these food containers may be arranged along the sides of the machine as well as at the front thereof, if desired. Also, the drink vending portion of the machine may have drink dispensing outlets at the sides of the machine, if desired, in addition to the one at the front of the machine. In the event that the same drink is dispensed at the sides of the machine as atthe front thereof, the main vessel 29 may be used as a common supply for all ci' the drink dispensers.

The food containers and have side walls interior of the containers |99 are divided into a plurality of small compartments by means of shelves |99, which shelves are adapted to support the sandwiches to be dispensed. The i'ixed upper portion o! the front wall 2 of the machine isfprovided with vertically siidable doors |94 having knobs |95 thereon for permitting the manual lifting or opening of these doors. When the doors |94 are moved to open position, a rectangular opening |99 is provided in the front wall 2, which opening is oi substantially the same size as one of the sandwich compartments tween two consecutive shelves |99 are open at the front |99 of the food containers. The doors |94 are illustrated as hav- `a pair of guide rods 99 are provided at the rear of each container and extend from the bottom of the machine casing to the top thereof. These guide rods are illustrated as of circular cross section and extend through conforming slide bearing apertures provided in'bearing members ||9 and secured to the bottom and to the top of the food container. The upper bearing member is in the form of an angle iron. A supporting chain ||2 is connected to bearing member substantially midway of the width of this bearing member.

Chain ||2 extends upwardly and over a pulley 9 provided at the top of the machine. From pulley ||9 the chain Il! extends downwardly and has its lower end connected to a counterweight |9| andarear wall |92. The.

|91 provided be- ||4 having the form of a tube open at its top and gg closed at its bottom. The weight of tube ||4 -may readily be adjusted so as to almost equal the counterweght II4. Chain ||5 extends from or other food to be dispensed, the same is positioned in the upper part of the machine casing,

the countcrweight II4 to the lower bearing plate and serves to counterbalance the weight of chain ||2 in use. 1t will be apparent that this compensating chain may be omitted, if desired:

The use of the counterweight ||4 together with the compensating chain ||5 provides for the easy and quiet movement of the container |00 within the machine casing in use.

With the vcontainer |00 filled with sandwiches as illustrated in Fig. 4, and coin control mechanism is provided for controlling thev lowering of this food container in successive steps or distances equal to the spacing of the consecutive shelves |53, so that successive food or sandwich vcompartments |01 are brought opposite the door |04, thereby enabling purchasers to remove the purchased food. A

The mechanism used for effecting the step by step downward movement of the food container consists of a lever I l0 (see Figs. 6 and 9) having a fulcrum arm |I1 substantially midway of its length, which arm is pivotally mounted upon apin I I0 carried by a bracket I |9, that is shown as fixed to a transverse bar constituting a part of the machine frame. Lever ||6 has a pivotal pin I2?. secured to its lower portion, and upon this pivotal pin isturnably mounted a pawl |2| for j cooperating with transverse stop bars |23 secured at regular intervals to therear wall |02 of the food container. The upper surface of the pawl |2| is straight, whereas the forward portion of the under surface of this pawl is beveled as at |24, for a purpose which will further appear.

A tension spring |25 has its upper end attached to a pin |26 carried by the lever ||6 and its lower end attached to a pin |21 that is carried by the pawl |2I. Spring |25 urges pawl |2| in a counl terclockwise direction as viewed'in Figs. 4 and 7.

The turning of pawl |2| under action of tension Aspring |25 is limited by a stop pin |23 that is secured to the lever IIB and engages the upper surface of the pawl |2I, thereby serving to normally position the upper surface of pawl |2| so that the saine extends substantially transversely of the lever H0. Theupper portion of lever H6 is provided with an offset stop projection |29 for cooperating with the transverse bars |23 carried by food container |00. The pivotal pin ||8 is preferably positioned substantially half way between the upper surface of pawl |2| and the upper surface of stop projection |29.

With one of the transverse bars |23 resting upon the upper surface of pawl |2I, as shown in Figs. 4 and 7, one of the food compartments |01 is positioned so as to register with the opening |06 provided by the raising of the-door |04. Also, with one of the bars |23 resting upon the stop projection |29 is positioned substantially half way between, the lower surfaces of two consecutive bars |23. A coil tension spring |30 has one end thereof secured to the machine frame and its other end attached to a pin |39 carried by lever ||6. Spring |38 tends to turn lever IIE in a clockwise direction, as viewed in Figs. 4 and 1. Theturning of levei` IIS "under the action of spring |33 is limited, however, as by a stoppin carried by bracket ||9 and engaging the under surface of the arm ||1 of this lever. Thus, the lever IIE is normally positioned by stop pin |40 so as to extend in a substantially vertical direction with the pawl |2| extending transversely of this lever.

A coin chute |4| is mounted upon the front wall 2 of the machine casing adjacent the food cony tainer |00. The slide |42 of this coin chute is disposed for engaging the lever I I6 when the coin chute is operated. Thus, when the proper com is inserted into the coin chute |4| and the knob |43 thereon presse-dinwardly, the slide `|42 of this coin chute, in moving inwardly, will engage the lower portion of lever I I6 and swing this lever in a counterclockwise direction from the position shown in Fig. 'l to the position shown in Fig. 8.

As the lever ||6 commences to move in its l counterclockwise direction by turning about its pivotal support I I8, the pawl |2| slides rearwardly and from under the stop bar |23. At the same time that the pawl |2| moves rearwardly, the

stop projection |29 of lever ||6 moves forwardly,

so as to underlie another of the transverse stop bars |23. As soon as the pawl I2! completely dl'sengages the stop bar |23 resting thereon, the food container |00 will move downwardly, under the action of gravity, a distanceequal to substantially one-half the height of a food compartment |01 or until a bar |23 engages the upper surface of stop projection |29, as especially shown in Fig'. 8. Owing to the use ofv counterweight H4 and com .pensating chain IIS, the container |00 moves downwardly smoothly and quietly and comes to rest on stop projection |29 without jolting or jarring. The purchaser now releases his pressure upon the knob |43, thereby permitting a tension pawl-|2I moves forwardly so as to underlie the next succeeding stop bar |23. The food con tainer |00 then continues its downward movement for a distance equal to the remaining bali.7 of the height of a food compartment, or until the next successive stop bar |23 comes to rest upon pawl I2 I, thereby bringing the next successive food compartment into registry with the door |04. The purchaser now opens the door |03 and removes his sandwich |45 or other article of food contained therein. As each successive purchaser inserts a coin into the coin chute |4I and operates this coin chute, the lever I i6 will function to lower the food container in two successive steps, equal in all to the height of one of the food compartments so that each such purchaser may remove the purchased sandwich or other food or article. Thus, the food container |00 descends lower and lower as food is dispensed therefrom until it reaches the lower limit of its travel illustrated in Fig. 9.

With the food container |00 at the lower limit of its travel, the highest food compartment |01 is positioned opposite the door |04 so as to enable the removal of the last sandwich from the conremoved, this word may be readily observed through the transparent window of the door. Thus, in Fig. 6, the uppermost food compartment is illustrated, and shows the word Empty" written on the shelf |03 thereof. In the event that a purchaser should not see the word Empty" through the window |08 and should insert the proper coin into coin chute |4|, means is provided for effecting the return of his coin to him.

The means for preventing the operation of the coin chute |4| and for returning the c oin to the purchaser when the food container |00 is empty, consists in employing a suitable stop for limiting the pivotal turning movement of lever I i8, thereby preventing such lever from swinging rearwardly the necessary distance to effect the lowering of the food container. In the machine shown in the drawings, the upper bearing member is employed as the stop for preventing a complete movement of lever H6. This construction is illustrated in Fig. 9, wherein the purchaser has pushed in the knob |43 as far as it will go and shows the stop projection |29 of lever I I6 abutting against the vertical flange portion of angle bearing member This bearing member prevents the lever ||6 from moving far enough to effect the discharge oi' the coin held by the slide |42 of coin chute 4| so that when the purchaser releases the knob |43 the coin slide |42, upon being returned to its forward position by its spring |44, will also serve to return the coin to its initial position enabling the purchaser to remove the same.

Preferably, a vertical track |46 is provided at the front end of the machine adjacent the side of the food container |00. Rollers |41, carried by brackets |48 attached to the side wall |0| of the food container, ride upon the track |46. The purchaser, in pushing upon the knob |43 and exerting pressure upon lever ||6 when the container is empty, tends to turn this lever H6 in a counterclockwise direction, `as viewed in Fig. 9, which motion is prevented by offset stop projection |29 abutting the angle guide III. The pressure of stop projection |29 upon angle guide tends to throw the food container |00 forwardly, which forward motion is effectively prevented by rollers |21 engaging track I4G. These rollers 'also act as additional guides for the container |00 during its vertical movement.

In replenishing the container |00 with sandwiches or other food, it is merely necessary to remove the lowerl removable panel |49 of the front wall 2. This removable panel |49 is normally retained in place by lugs |3| near the lower edge of the panel, which lugs cooperate with the machine frame in the same manner as the lugs |3| heretofore described in connection with the side panels 4. Panel |49 is also provided with`a lock |32 having a pivotal latch bolt |33. Thus, by inserting the proper key in lock |32 and turning the latch bolt |33, panel |49 may be removed. With panel |49 removed, ready access is had to the forward open ends of compartment |01, since with food container 00 in its lowermost position, these food compartments are opposite the panel |49. After filling the compartments |01 with sandwiches or other food, the container |00 is manually raised to its uppermost position. This upward movement of the food container is easily performed, as illustrated in Fig. 13, by merely giving the food container an upwardpush with the hand. Since pawl |2| is pivoted on pin |22, the stop bars |23, during the upward movement of the food container.

merely ride over the lower beveled portion |24 of the pawl |2|, thereby swinging this pawl upwardly about'its pivotal pin |22 and against the tension of spring |25, as illustrated in Fig. 13. As soon as the food container reaches this highest position. the pawl |2| will snap under the lowermost stop bar |23, thereby retaining the food container in its uppermost position ready for further use.

' Experiment has shown that it takes but a few moments to fill the food container |00 with sandwiches and pushrthe same upwardly by means of the hand or foot to its highest position ready for further use. The counterweight ||4 serves to assist in moving the food compartment |00 upwardly so that the same travels quietly and quickly with each successive stop bar |23 readily passing the pawl I2|. Upon the replacement of front panel |49 the machine is ready for further use. Coin boxes |50 are provided at the bottom of the machine under the coin chutes |4| for receiving coins discharged from these coin chutes. Boxes |50 are readily accessible by removal of the front panel |49.

Thus it is seen that the mere operation of the proper coin chute is all that is necessary to effect either the vending of a desired drink or the vending of food, such as sandwiches. It will be apparent that any number of food containers may be used in the machine and that a number of drink dispensers may also be used if desired, each of said drink dispensers serving to dispense a definite quantity of drink at each operation.

Although the measuring valve 40 is illustrated as operated by a solenoid 8| mounted at the top of the machine for exerting a direct pull upon the valve rod 58, it will be apparent that this measuring valve may be operated in many other ways, including manual operation. For example, in Fig. 14, this measuring valve is shown as operated by a lever |5| that is fixed upon valve Arod 56 and is turned to open position by an armature 60' of a solenoid 8|. Valve rod 50' has a cross pin |52 extending therethrough for resting upon complementary lift cams |53 and |53' formed on a tube member I 54'. carried by a cap 53. A compression spring |55 is shown contained within valve casing 4| and presses downwardly upon plug 5|', thereby serving to close valve body 44 upon its seat (not shown) when the solenoid 6|' is deenergized. In order to facilitate the rapid shutting off of the supply of liquid to the valve body 44 when this valve -body is raised in use, the liquid inlet apertures or slots 42' and 43 in the casing 4| and valve body 44, respectively, are disposed vertically instead of horizontally as shown in Figs'. 10 and 11. The measuring valve of Fig..14 operates in much the same manner as the valve shown in Figs. and 11, with the exception that the complementary lift cams |53 and |53' serve to eifect the lifting of the valve body 44 when a drink is dispensed, the cross pin |52 riding up on cams |53 and |53' under the turning action of lever |5| which is actuated by armature 30'.,

It will be apparent that in obtaining drinks from the machine, the operating knob 9| of the coin chute 82 must be held in its inwardly pressed position during the period of time it takes the drink to be dispensed from the measuring valve 40, which period is only a few moments; however, some purchasers not used to the machine may merely press the knob 9| inwardly momentarily and then release the same before the drink purchaser f his full quantity of drink. To overcome this o jection` especially in localities where there are many transient purchasers, the switch 90 instead of being directly connected in the circuit of the solenoid 6| may be connected to the operating coil of a time relay, which time relay in' turnis connected in the circuit of solenoid 6|, the time relay operating in a manner well known to those skilled in the art to delay the opening of the circuit of solenoid 6| in use so that ample time is provided to permit all of the drink to be dispensed from valve 40 even though knob 9| is pushed in only momentarily.

Thus, the wiring diagram of Fig. 12 may be modified slightly as shown in Fig. 15 to incorporate a time relay |51 therein. As illustrated ln this wiring diagram, the mercury switch 9D is adapted, when closed, even momentarily, to energize the operating coil |58 of time relay |51, thereby eiecting the instant closing of this time relay by passage of current from lead 12 through lead 95', switch 9B, lead 92, through coil |53 back to the source of supply. The closing of relay |51 completes a circuit through lead 92, relay |51, lead 95, solenoid 5|, and lead 96 back to the source of supply. Even if the switch is again immediately reopened by releasing the coin chute knob 9|, the time vrelay |5`|.will remain closed for a definite period, depending upon the predetermined time constant on this relay, thereby enabling all of the beverage to be dispensed from the valve 40 before the solenoid 6| is deenergized to effect the closing of this valve. The upper part of the wiring diagram has been omitted from Fig. 15 because the same is identical with that in Fig. l2.

If desired, instead of premixing all of the drink ingredients and pouring the completed drink into the main container 25 to be later heated in the auxiliary vessel 39 preparatory to dispensing the same, only a portion of the ingredients of the drink may be placed in container 25 and the remaining portion of the ingredients, having the form of a cube or powder, may be placed in the individual cups 22. Thus, in Fig. 16 cups 22 are shown in stacked condition, ready for'insertion into the cup dispensers I9 and I0'. In the bottom of each of these cups 22, there has been placed a cube or capsule |59 of a food or drink concentrate, such as a bullion cube or powdered milk, lor example.

Where the cube |59 is a bullion cube or the like, the container` 26 would ordinarily be filled with water and a purchaser after putting the proper coin `in the coin chute I2 and obtaining his cup having the bullion cube |59 therein, would then operate the coin chute 82, thereby obtaining hot water from the measuring valve 4U, the

I hot water serving to dissolve the bullion cube,

thereby producing beef tea.`

Some drink ingredients, such as milk, become rancid or spoil when in their common forms, but when these ingredients lare put into powdered or compressed cake form, such as powdered milk, they last indefinitely. Thus, if the cubes or capsules |59 are formed of powdered milk, the pur- -chaser after obtaining a cup with a cube therein,

will place the same under nipple 68 of the measuring valve and after operating slide 93 of coin chute 82, will receive the remaining ingredients of the drink. In this case, the proper ingredients for completing the drink are inserted into the container 26.: Thus, if coffee is dispensed from the machine, coffee without milk is inserted into container 26. On the other hand, if tea is being dispensed, tea without milk is inserted into this container, and thc hot coffee or ta, y

as the ca'se may be, will ow into cup 22, thereby dissolving the powdered milk forming the cube or capsule |59.

, p In order to easily maintain the containers 26.

and 3ll`together with the measuring valve 40 in a wholesome and sanitary condition, it may be desirable to only insert water into the container 25, in which case the remaining ingredients of the drink are combined into a cube, wafer or capsule |59 that is placed in the cups 22. For example, if it is desired to dispense collec while using only water in the container 25, a wafer |59 or cube is formed of a mixture of powdered milk, sugar and coiiee concentrate, which wafer may or may not be covered by a protective coating, such as gelatin. After receiving a cup having such a' wafer |59 therein, the purchaser merely inserts the cup under-nipple (i8 and opcrates the coin chute 82 to thereby cause the measuring valve 40 to-discharge hot water into the cup. The hotfwater on contacting with the composition wafer or cube, immediately dissolves the same, producing the complete drink without the necessity cf stirring the contents of-the cup.

' 1n the following claims, the word beverage is intended to cover any type of drink or portion of the liquid ingredients of a drink which is adapted to be'dispensed in liquid form.

As many changes could be made-in thev above construction and many apparently widely diierent embodiments of this invention could be made without departing from the scope thereof, as'defined by the following claims, it is intended that all matter contained in the above description or shown in the accompanying drawings shall be interpreted as illustrative and not in a limiting sense.

What is claimed is: l

1. In a vending machine of the character described, a main beverage reservoir, an auxiliary reservoir connected to said main reservoir for receiving beverage flowing by gravity therefrom, said auxiliary reservoir being of lesser capacity than said main reservoir and having an air vent at its top for permitting the escape of vapors, means for heating the beverage within said auxiliary reservoir, a liquid measuring valve connected to said auxiliary reservoir, said liquid measuring valve having a hollow valve body therewithin of a size for receiving a predetermined quantity of beverage, and coin controlled means for causing the operation of said measuring valve to effect the dispensing of beverage from said hollow valve body. 2. In a vending machine of the character described, a main reservoir for receiving and retaining beverage at ordinary temperatures, an auxiliary reservoir of smaller capacity than Said main reservoir for receiving beverage flowing by gravity from said main reservoir, a heater associated with said auxiliary reservoir for heating the beverage therein to a desired temperature for drinking, a liquid measuring valve connected to said auxiliary reservoir, said liquid measuring valve comprising a casing arranged to be heated by said heater, said casing b-cing provided with a discharge port, and a hollow valve body movable therein, one o! said ports being arranged to communicate with said auxiliary reservoir for receiving heated beverage therefrom, and another of said ports being arranged to communicate with the discharge port of the easing of said liquid measuring valve,` and coin controlled means for causing movement of said hollow valve body within its casing, whereby communication between its ilrst named port and said auxiliary res-l ervoir is shut off substantially simultaneously with the establishment of communication f between its second named port and the discharge port of said valve casing.

3. In a vending machine oi the character described, a main beverage reservoir for retaining beverage at ordinary temperatures, a relatively small auxiliary reservoir connected to said main reservoir for receiving beverage from said main reservoir, a heater for heating the contents of said auxiliary reservoir, thermostatic means for controlling the operation for said heater whereby the beverage within said auxiliary reservoir is maintained at a desired temperature for drinking, a vent pipe connected to the top of said auxiliary reservoir and extending upwardly above the liquid level of said main reservoir whereby vapors formed in said auxiliary reservoir are permitted to escape, a liquid measuring valve connected to said auxiliary reservoir for receiving beverage therefrom, said measuring valve comprising an exterior casing having an inlet port therein communicating with said auxiliary reservoir and a discharge port therein positioned for delivering beverage to a cup or other container, a hollow valve body movable within said easing, said valve body having one port therein arranged, when said valve body is in one position, to register with the inlet port o! said casing so that said valve body receives a predetermined quantity oi beverage, said `valve body having a second port arranged to discharge the liquid contents of said valve body through said valve casing discharge port when said valve body is moved to another position, in which latter position said flrst named valve body port is out of registry with said easing inlet port.

4. In a vending machine of the character described, a main beverage reservoir for retaining beverage at ordinary temperatures, a relatively small auxiliary reservoir connected to said main reservoir for receiving beverage from said main reservoir, a heater for heating the contents of said auxiliary reservoir, thermostatic means for controlling the operation of said heater whereby the beverage within said auxiliary reservoir is maintained at a desired temperature for drinking, a vent pipe connected to the top oi said auxiliary reservoir and extending upwardly above the liquid level of said main reservoir whereby vapors formed in said auxiliary reservoir'are permitted to escape, ar liquid measuring valve connected to said auxiliary reservoir for receiving beverage therefrom, said measuring valve comprising an exterior casing having an inlet port therein communicating with said auxiliary reservoir and a discharge port therein positioned i'or delivering beverage to a cup or other container, a hollow valve body movable within said casing, said valve body having a valve rod extending exteriorly oi said casing, said valve body being arranged, when in one position, to close the discharge port of said casing and to open the inlet port of said casing, whereby a measured quantity oi' beverage is caused to enter said valve,

and mechanism for actuating said valve rod to move said valve body to another position, in which latter position said casing inlet port is closed and said casing outlet port is opened, thereby causing the measured quantity of beverage to be dispensed from said valve. y

5. In a vending machine of the character described, a main beverage reservoir for receiving and retaining beverage at ordinary temperatures, a relatively small auxiliary beverage reservoir connected to said main reservoir for receiving beverage flowing under the action of gravity from the latter, a heater for heating the contents o! said auxiliary reservoir, adjustable thermostatic means for controlling the operation of said heater, whereby beverage within said auxiliary reservoir is maintained at a desired temperature preparatory for drinking, the connection between said main and auxiliary reservoirs being such as to substantially prevent the flow of heated beverage from said auxiliary reservoir back to said main reservoir, said auxiliary reservoir having a vent portion projecting upwardly above the liquid level within said main reservoir, said vent' portion being open at its top to permit the escape of vapors and gases formed in said auxiliary reservoir.

G. In a vending machine of the character described, a liquid measuring valve comprising a valve casing having an inlet port and a discharge port, a hollow valve body slidable within said valve casing, said valve body also having an inlet port and a discharge port, spring means i'or urging said valve body toward valve closing position, in which position said valve body closes said casing discharge port while the inlet port of said valve body registers with said casing inlet port, thereby enabling said valve body to become filled with liquid to be dispensed, the size of said 7valve body serving to measure the quantity of liquid to be dispensed, means connected to said valve casing for controlling the temperature of the beverage therein, and coin controlled means for moving said valve body against the tension oi said spring means, whereby said valve body inlet port moves out of registry with said casing inlet port and said casing outlet port is opened, enabling the measured quantity oi' liquid within said valve body to iiow through said outlet ports.

7. In a vending machine of the character 'described, a liquid measuring valve comprising a valve casing having an inlet port and a discharge port, a hollow valve body slidable within said valve casing, said valve body also having an inlet port and a discharge port, spring means i'or urging said valve body toward valve closing position, in which position said valve body closes said easing discharge port while the inlet port of said valve body registers with said casing inlet port, thereby enabling said valve body to become iilled with liquid to be dispensed, the size of said valve body serving to measurethe quantity of liquid to be dispensed, said valve body having a valve rod extending exteriorly of said valve casing, and a coin controlled solenoid having an armature connected to said valve rod i'or actuating the latter to cause said valve body to move against the tension of said spring means, whereby said valve body inlet port moves out of registry with said casing inlet port, thereby shutting off the supply of liquid to said valve body, and said casing outlet port is opened, causing the measured quantity o! liquid in said valve body to be dispensed.

THOMAS BRADY. 

